Adjustable Vanity Mirror With Hanger Bracket And Suction Cup

ABSTRACT

The invention comprises a hands-free, adjustable telescoping magnifying mirror. The mirror may have a first reflective surface and a second reflective surface and can be secured to a horizontal or vertical surface using a suction cup base or can be hung over a door or ledge using a retractable hanger bracket. A telescoping rod is attached to the suction cup base. The mirror may be extended from the base by extending the telescoping rod and the mirror assembly can stand freely without falling over, whether the suction cup base is engaged or not. Additionally, one or more light sources may be disposed at a periphery of the first reflective surface or second reflective surface.

CROSS-REFERENCES TO RELATED APPLICATION

This application claims the benefit of prior Provisional Application No.62/722,749, filed on Aug. 24, 2018, which is incorporated by referenceherein in its entirety.

FIELD OF THE INVENTION

The present disclosure relates generally to vanity mirrors.

BACKGROUND OF THE INVENTION

Vanity mirrors are reflective devices that are typically used forpersonal grooming, shaving, applying makeup, or the like.

Vanity mirrors are available in various configurations, includingwall-mounted, free-standing, and hand-held. A common problem, however,with each of these configurations is that users of the mirror mustreposition themselves to obtain the desired distance from the reflectivesurface and the requisite height for the reflective surface to beviewable. This repositioning is particularly undesirable when the useris required to bend over to reach the desired height and distance, whichmay cause back and neck pain. In the case of a hand-held mirror, theuser may be able to reposition the mirror but must hold the mirror atthe desired location, thereby reducing their ability to perform therequired grooming tasks.

The present invention solves these problems by providing a hands-free,adjustable mirror assembly with a suction cup base, hanger bracket, andlight source. The suction cup base allows the user to position themirror assembly at the desired distance, height, and angle from the userwhile maintaining the stability of the mirror assembly. Additionally,the hanger bracket permits the user to hang the mirror assembly at thedesired height and position over a door or ledge while maintaining thestability of the mirror assembly. These features permit the user of thepresent invention to stand or sit, as desired, and permit the user tomove the mirror assembly disclosed herein to the desired location ratherthan bending over to reach the desired distance from the reflectivesurface, thereby potentially avoiding causing back and neck pain. Theability to hang the present mirror assembly over a door or ledge alsoprovides the user with the ability to utilize the mirror assembly in avariety of locations.

BRIEF SUMMARY OF THE INVENTION

The present invention relates to a novel mirror assembly comprising amirror, suction cup base with a hanger bracket, and an adjustabletelescoping rod.

A hands-free, adjustable telescoping magnifying mirror with a lightsource is provided. The mirror can be secured to a horizontal orvertical surface using a suction cup base or can be hung over a door orledge using a retractable hanger bracket. A telescoping rod is attachedto the suction cup base. The mirror may be extended from the base byextending the telescoping rod and the mirror assembly can stand freelywithout falling over, whether the suction cup base is engaged or not. Asmooth disc may also supplied to increase stability of the mirrorassembly by removably mounting the suction cup base to the disc, givingthe base a larger footprint.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates a front view of an embodiment of a mirror assemblywith the telescoping rod extended and trigger arm engaged.

FIG. 2 illustrates a front perspective view of an embodiment of a mirrorassembly with the telescoping rod extended, trigger arm engaged, andhanger bracket retracted.

FIG. 3 illustrates a rear view of an embodiment of a mirror assemblywith the telescoping rod extended and hanger bracket retracted.

FIG. 4 illustrates a rear perspective view of an embodiment of a mirrorassembly with the telescoping rod extended, trigger arm engaged, andhanger bracket retracted.

FIG. 5 illustrates a side view of an embodiment of a mirror assemblywith the telescoping rod extended, trigger arm engaged, and hangerbracket retracted.

FIG. 6 illustrates a front view of an embodiment of a mirror assemblywith the telescoping rod retracted and trigger arm disengaged.

FIG. 7 illustrates a front perspective view of an embodiment of a mirrorassembly with the telescoping rod retracted, trigger arm disengaged, andhanger bracket retracted.

FIG. 8 illustrates a rear perspective view of an embodiment of a mirrorassembly with the telescoping rod retracted, trigger arm disengaged, andhanger bracket retracted.

FIG. 9 illustrates a front perspective view of an embodiment of a mirrorassembly with the telescoping rod retracted, trigger arm engaged, hangerbracket extended, and reflective surfaces partially rotated.

FIG. 10 illustrates a rear perspective view of an embodiment of a mirrorassembly with the telescoping rod retracted, trigger arm engaged, hangerbracket extended, and reflective surfaces partially rotated.

FIG. 11A illustrates a front view of an embodiment of a mirror assemblywith the hanger bracket extended and engaged over a door or ledge.

FIG. 11B illustrates a front view of an embodiment of a mirror assemblywith the hanger bracket extended and engaged over a door or ledge.

FIG. 12A illustrates a bottom perspective view of an embodiment of amirror assembly with the hanger bracket extended and engaged over a dooror ledge.

FIG. 12B illustrates a bottom perspective view of an embodiment of amirror assembly with the hanger bracket extended and engaged over a dooror ledge.

FIG. 13A illustrates a front perspective view of an embodiment of amirror assembly with the hanger bracket extended and engaged over a dooror ledge.

FIG. 13B illustrates a front perspective view of an embodiment of amirror assembly with the hanger bracket extended and engaged over a dooror ledge.

FIG. 14 illustrates a front view of an embodiment of a mirror assemblywith the telescoping rod retracted, trigger arm disengaged, andreflective surfaces partially rotated.

FIG. 15 illustrates a front perspective view of an embodiment of amirror assembly with the telescoping rod retracted, trigger armdisengaged, hanger bracket retracted, and reflective surfaces partiallyrotated.

FIG. 16 illustrates a front perspective view of an embodiment of amirror assembly with the telescoping rod retracted, trigger arm engaged,hanger bracket retracted, and reflective surfaces partially rotated.

FIG. 17 illustrates a rear perspective view of an embodiment of a mirrorassembly with the telescoping rod retracted, trigger arm disengaged,hanger bracket retracted, and reflective surfaces partially rotated.

FIG. 18 illustrates a side view of an embodiment of a mirror assemblywith the telescoping rod retracted, trigger arm disengaged, hangerbracket retracted, and reflective surfaces partially rotated.

DETAILED DESCRIPTION OF CERTAIN EMBODIMENTS

In one embodiment, a mirror assembly 10 comprises a mirror 20, a suctioncup base assembly 30, and a telescoping rod 40. Mirror 20 may have afirst reflective surface 21 on a first side and a second reflectivesurface 22 on a second side. Additionally, there may be one or morelight sources 23 disposed at a periphery of first reflective surface 21or second reflective surface 22. The light source or sources 23 may bepowered by a battery (e.g., a rechargeable battery) or may be pluggedinto an electrical outlet, for example. The light source or sources 23may be activated and deactivated by a switch 24, or the like, which maybe located adjacent the light source 23 on the front side of housing 27,or on the reverse side, for example. Switch 24 may be a push-buttontoggle switch, for example, or may be a rotatable knob that allows auser to adjust the intensity of light emitted by light source 23 byrotating the knob in a clockwise or counterclockwise direction. Housing27 may have a socket 25 for use in a ball joint by which a first end 41of telescoping rod 40 may be secured to housing 27. The mirror 20 mayalso have a lever 26 that when triggered rotates reflective surfaces 21and 22 relative to light source or sources 23 about an axis normal tothe vertical axis of telescoping rod 40, for example, thereby allowing auser to view the reflective surface that provides the desiredmagnification level. A person of ordinary skill in the art wouldunderstand that other methods and axes of rotation may be used to rotatereflective surfaces 21 and 22. Each reflective surface 21 and 22 may benon-magnifying or may be magnifying, and each may provide level a ofmagnification of, for example, 1×, 3×, 5×, 7×, 10×, 15×, or 20×.

In some embodiments, the suction cup base assembly 30 is substantiallyhemispherical in shape, comprising a round, flexible, concave diaphragm34 (i.e., a suction cup) on the front side of the planar surface of thehemisphere. The suction cup base assembly 30 can comprise multiplesuction cups, but preferably uses only one suction cup 34 in order toreduce the size and weight of the mirror assembly 10, thereby increasingportability. The suction cup 34 may be used to removably mount themirror assembly 10 to a horizontal or vertical surface. The suction cup34 may be a locking suction cup or a non-locking suction cup. A housingportion 31 is disposed on the reverse side of the planar surface of thehemisphere. The housing portion 31 is preferably made of a water-,abrasion-, and stain-resistant material, such as plastic. A materialsuch as plastic will resist discoloration and rust that may occur due toconditions in which the mirror assembly may be utilized, e.g., in a dampenvironment such as a bathroom, adjacent to a water source such as asink, or near substances that may stain or discolor such as makeup orother grooming products. The plastic material from which the housingportion 31 of the suction cup assembly 30 is preferably comprised mayalso be flexible such that it will not crack or break if the mirrorassembly 10 is dropped. If the suction cup 34 is a locking suction cup,the housing portion 31 of the suction cup assembly 30 may also include atrigger arm 33 for engaging the suction cup 34 such that it becomesremovably mounted to a horizontal or vertical surface. Additionally, dueto the conditions in which the mirror assembly 10 may be utilized, e.g.,in a damp environment such as a bathroom, or adjacent to a water sourcesuch as a sink, it is preferable for the trigger arm 33 to be comprisedof a water- and rust-resistant material such as stainless steel oraluminum. Those of skill in the art, however, would understand that thetrigger arm 33 can be comprised of any suitable material.

The suction cup base assembly 30 may also include a hanger bracket 32.The hanger bracket 32 provides support for the mirror assembly 10 to behung in an inverted manner on a door, a ledge, or the like. To permitthe mirror assembly 10 to be hung in an inverted manner from a door,ledge, or the like, the hanger bracket 32 preferably has an internaldimension sufficient to accommodate the minimum and maximum standardthickness of an interior door. The hanger bracket 32 may be shaped asshown, for example, in FIGS. 9, 10, and 13, or may be shaped in anymanner suitable to allow it to support the mirror assembly 10 over adoor, ledge, or the like. The hanger bracket 32 is preferably made ofmetal, such as stainless steel, so that it can adequately support themirror assembly 10 and is preferably thin enough to permit the door onwhich the mirror assembly 10 may be hung to be closed. Additionally, dueto the conditions in which the mirror assembly 10 may be utilized, e.g.,in a damp environment such as a bathroom, or adjacent to a water sourcesuch as a sink, it is preferable for the hanger bracket 32 to becomprised of a water- and rust-resistant material such as stainlesssteel. Those of skill in the art, however, would understand that thehanger bracket 32 can be comprised of any suitable material.

The hanger bracket 32 is secured to hinge plate 36 of the suction cupbase assembly 30 using a hinge assembly 35. The hinge assembly 35permits the hanger bracket 32 to extend as shown in FIG. 9, and retract,as shown in FIG. 4, thereby facilitating the compact storage ortransport of the mirror assembly 10. The hinge assembly 35 may include aroll pin to support the hanger bracket 32 when it is used to hang themirror assembly 10 from a door, ledge, or the like. In some embodiments,the hinge assembly 35 may use a solid pin or set screws to support thehanger bracket 32 when it is used to hang the mirror assembly 10 from adoor, ledge, or the like. A physical stop is molded into hinge plate 36to prevent the hanger bracket 32 from rotating further than 90° relativeto the suction cup assembly 30.

A telescoping rod 40 extends between the suction cup base assembly 30and the mirror 20. In some embodiments, the first end 41 of thetelescoping rod 40 is secured to the housing 27 of the mirror 20 using aball joint. The ball joint allows the user of the mirror assembly 10 topivot and adjust the mirror 20 to obtain the desired position. Thesecond end 42 of the telescoping rod 40 is secured to the housingportion 31 of the suction cup base assembly 30, by, for example, aswivel joint such that the suction cup base assembly 30 may be storedagainst the telescoping rod 40 when the mirror assembly 10 is not inuse, thereby facilitating the compact storage or transport of the mirrorassembly 10. The telescoping rod 40 may be retracted or extended inorder to adjust the height of the mirror 20 or distance from the user orto facilitate the compact storage or transport of the mirror assembly10.

Additionally, a smooth disc of, for example, 5″ in diameter, may beprovided to enhance the stability of the mirror assembly 10 when thetelescoping rod 40 is fully extended by removably mounting the suctioncup base assembly 30 to the disc using the suction cup 34, therebyproviding a larger footprint and increased stability to the mirrorassembly 10.

In another embodiment, a mirror assembly comprises a mirror, a suctioncup base assembly, and a telescoping rod. The mirror may besubstantially hemispherical in shape, comprising a flat, circularreflective surface disposed on the front side of the planar surface ofthe hemisphere, and a housing disposed on the reverse side of the planarsurface of the hemisphere. The housing may have a socket for use in aball joint by which a first end of a telescoping rod may be secured tothe housing. Additionally, there may be one or more light sourcesdisposed at the periphery of the reflective surface. The light source orsources may be powered by a battery (e.g., a rechargeable battery) ormay be plugged into an electrical outlet, for example. The light sourceor sources may be activated and deactivated by a switch, or the like,which may be located adjacent the light source on the front side of theplanar surface of the hemisphere, or on the reverse side, for example.The reflective surface may be non-magnifying or may be magnifying,providing magnification at a level of, for example, 1×, 3×, 5×, 7×, 10×,15×, or 20×.

It will be understood by persons skilled in the art that modificationsmay be made to the embodiments described herein while remaining withinthe scope of the claimed invention.

What is claimed is:
 1. A mirror assembly comprising: a mirror; themirror comprising a mirror housing and at least one reflective surface;a suction cup base assembly; the suction cup base assembly comprising asuction cup base assembly housing, a hanger bracket, and at least onesuction cup; a telescoping rod extending between the mirror and thesuction cup base assembly; wherein a first end of the telescoping rod issecured to the mirror housing and a second end of the telescoping rod issecured to the suction cup base assembly housing.
 2. The mirror assemblyof claim 1, wherein one or more light sources is disposed at a peripheryof the mirror housing;
 3. The mirror assembly of claim 1, wherein the atleast one reflective surface is a 3× magnification mirror.
 4. The mirrorassembly of claim 1, wherein the at least one reflective surface is a 5×magnification mirror.
 5. The mirror assembly of claim 1, wherein the atleast one reflective surface is a 7× magnification mirror.
 6. The mirrorassembly of claim 1, wherein the at least one reflective surface is a10× magnification mirror.
 7. The mirror assembly of claim 1, wherein theat least one reflective surface is a 15× magnification mirror.
 8. Themirror assembly of claim 1, wherein the at least one reflective surfaceis a 20× magnification mirror.
 9. The mirror assembly of claim 2,wherein the at least one reflective surface is a 3× magnificationmirror.
 10. The mirror assembly of claim 2, wherein the at least onereflective surface is a 5× magnification mirror.
 11. The mirror assemblyof claim 2, wherein the at least one reflective surface is a 7×magnification mirror.
 12. The mirror assembly of claim 2, wherein the atleast one reflective surface is a 10× magnification mirror.
 13. Themirror assembly of claim 2, wherein the at least one reflective surfaceis a 15× magnification mirror.
 14. The mirror assembly of claim 2,wherein the at least one reflective surface is a 20× magnificationmirror.
 15. A mirror assembly comprising: a mirror; the mirrorcomprising a mirror housing; the mirror housing comprising a firstreflective surface disposed on a first side of the mirror housing and asecond reflective surface disposed on a second side of the mirrorhousing; a suction cup base assembly; the suction cup base assemblycomprising a suction cup base assembly housing, a hanger bracket, and atleast one suction cup; a telescoping rod extending between the mirrorand the suction cup base assembly; wherein a first end of thetelescoping rod is secured to the mirror housing and a second end of thetelescoping rod is secured to the suction cup base assembly housing. 16.The mirror assembly of claim 15, wherein one or more light sources isdisposed at a periphery of the mirror housing.
 17. The mirror assemblyof claim 16, wherein the first reflective surface is a 1× magnificationmirror and the second reflective surface is a 7× magnification mirror.18. The mirror assembly of claim 16, wherein the first reflectivesurface is a 1× magnification mirror and the second reflective surfaceis a 10× magnification mirror.
 19. The mirror assembly of claim 15,wherein the first reflective surface and the second reflective surfaceare rotatably mounted relative to one or more light sources disposed ata periphery of the mirror housing.
 20. The mirror assembly of claim 19,wherein the first reflective surface is a 1× magnification mirror andthe second reflective surface is a 7× magnification mirror.
 21. Themirror assembly of claim 19, wherein the first reflective surface is a1× magnification mirror and the second reflective surface is a 10×magnification mirror.